FR2540424A1 - Twist drill - Google Patents

Abstract

a. Twist drill. b. Drill characterised in that the lead cutter 5 stands out beyond the main cutting edges 3, with respect to their outer corners 7, by 1 to 1.5 mm and the front face and the rear face of the lead cutter 5 extend in a plane parallel to the longitudinal axis of the drill and have a triangular shape, and their tips are connected by a transverse cutting edge. c. The invention relates to twist drills.

Description

HELICOIDAL FOREST
The present invention relates to a helicoSdal forest, in particular for drilling wood, plastic material, as well as concrete and stone or other similar material, comprising a fixing rod and, provided on the drill bit, main cutting edges, between which consists of a first cut tooth which protrudes from the main cutting edges and has two first cutting edges while the main cutting edges of the drill bit enclose an angle cC less than 1800.

 For drilling holes in concrete, in masonry or other hard materials, of the same kind, it is used, in general, so-called "percussion" drills in connection with percussion drills. This mode of use however causes relatively significant nuisance due to noise and, moreover, the drilled holes are imprecise. On the other hand, a disadvantage is that these forests can only be used as confined forests for hard materials and not for soft or elastic materials such as wood and / or plastic. In addition, these drills can only be used in conjunction with drills or percussive drills rotating, so that they require a special machine 9 which makes their implementation more expensive.

 The object of the present invention is to provide a drilling tool which can be used for hard materials as well as for less hard materials, and this in conjunction with a drilling machine n1 not performing a percussion movement during drilling operation. , without increasing the drilling forces to be applied.

 In other words, a drilling tool suitable for wood, plastics or the like must be provided between usable at the same time for working the stone, in order to allow, in this way, to make holes in plastic or wood in the same way as in concrete, stone or other hard material in one operation without having to change anything, namely without having to go from simple drilling to percussion drilling.

However, it is not intended to work in metal.

 To this end, the invention consists in that, for a helical forest of the type mentioned in the preamble, the first cutting tooth protrudes from the main cutting edges, with respect to their outer corners, from 1 to 1 #, 5MM, and in that the front face and the rear face of the first cutting tooth extend in a plane parallel to the longitudinal axis of the forest and have a triangular shape, and their points are connected by a transverse cutting edge.

 US Patent 2,652,083 describes a helical forest which, according to the general type of object of the application, is constituted with main cutting edges provided on the drill bit and a first cutting tooth located between it, which protrudes main cutting edges and has two first cutting points. This forest is however intended to be used exclusively for wood; another use is not possible. This already results from the fact that the height of the first cutting tooth must depend on the diameter of the drill, hence, in the case of relatively large diameters, a height that is all the greater consequently.

 On the other hand, the indication in percent, from 20 to 400, b; for the height of the first cut tooth, according to the US patent, shows that there is provided a considerable height of the tooth, which is essential, in the case of drilling in wood, for the function of centering tip used to guide the main cutting edges. A tooth like this, however, would not fail, in hard materials, to burn and break. This is mainly due to the fact that the centering tooth in no way assumes a cutting function, and therefore cannot basically be implemented for the treatment of hard materials.

 Unlike the state of the art corresponding to US Pat. No. 2,652,083, the first cut tooth formed in accordance. to the invention has not only a guiding function but also acts on the fragmentation of the material to be drilled, which is why it is arranged in a particular way thanks to the provision of a transverse cutting edge. It is essential in this respect that the first cutting tooth protrudes from the main cutting edges relative to their outer corners, so that it already cuts the material to be drilled while the main cutting edges are not yet in engagement.

 Ainsig.la first cut tooth ltinvention ensures, very advantageously not only a guiding function, but also cooperates as a foret of relatively small diameter to the fragmentation of the material to be drilled, which reduces' resistance to penetration for the main cutting edges of the drill. An increased creep resistance of the twist drill is thus obtained by virtue of the fact that there is no sharp pointed upper, but horizontal, which gives a relatively large thickness of material in the terminal region of the first cut tooth. relatively large material thickness ensures better thermal conductivity and better thermal capacity, so that the embodiment according to the invention makes it possible to avoid, to a very large extent, combustion of the first cut tooth in the terminal zone.

 A reduction in the development of detrimental heat at the location of the first cutting tooth is also favored by the fact that it happens to exert a real cutting action, whereas, in the case of a guide tooth according to In the state of the art, there is, in all cases, a deforming crushing of the material that is being treated.

 It then turns out that, in the case of very hard and smooth surfaces, such as for example in the case of varnished ceramic plates, the forest in accordance with the invention tends to become decentralized.

It is therefore an advantage to provide, in accordance with the invention, for the transverse cutting edge to terminate each time at a distance from the front face and from the rear face of the first cutting tooth in front of these. It is obtained in this way, it is a surprising result that, even though the first cutting tooth is flattened, an automatic centering effect occurs in such a way that, when the forest is put in place instead of preventing it from decentring. However, the best thermal conductivity and capacity are then retained, which prevent combustion of the first cut tooth.

 The helical forest in accordance with the inventions is used in rotary drills, so that there is no need for special machines, for example percussion drilling, in order to be able to drill stone-like materials with the helical drill. It is thus advantageous to have the possibility of use with little noise, which makes it possible to consider the drill according to the invention as being pleasant for the environment. In addition, this drill works with very high precision in many materials and, for example in the case of drilling hollow stone blocks, we avoid breaking the inner walls of the stones, which allows to obtain a better ankle stability.

According to various advantageous embodiments of the invention, provision is made:
- that the length of the transverse cutting edge corresponds approximately to the half ~ thickness of the insertion plate;
- that the ends of the transverse cutting edge are connected to the adjacent front and rear faces of the first cutting tooth by inclined surfaces of triangular shape, and that the edge of the inclined surfaces which is situated in the front in the direction of rotation is constituted by cutting edge;
- that the heights of the two inclined surfaces of triangular shape are of the same size;
that the main cutting edges make an angle of about 116 each time with the ardues of first cutting;
- that the main cutting edges and the first cutting tooth are formed on a hard lethal plate;
- That the transverse cutting edge extends obliquely with respect to the front face and to the rear face of the first cut tooth, preferably parallel to the lateral edges of the plate;
- that the lateral surfaces of the first cut tooth lie in planes passing through the transverse cutting edge;
- that the transverse cutting edge is formed so as to have a convex shape,
The invention will be better understood with the aid of the description below and the appended drawings representing an example - and variants - of the invention, drawings in which:
- Figure 1 is a side view of a forest
- Figure 2 is a side view of a hard metal plate inserted in the drill and which presents the cutting edges of main and first cut;
- Figure 3 is a top view of the hard metal plate according to Figure 2;
- Figure 4 is a side view of an embodiment according to the invention of the first cut tooth formed on a hard metal plate;
Figure 5 is a side view of the hard metal plate according to Figure 49
- Figure 6 is a top view of the plate according to Figure 5;
- Figure 7 is a top view of an advantageous form of execution of the plate according to Figure 6;
FIG. 8 is a side view of the plate according to FIG. 7.

 Figure 1 shows a partial view of a helical forest, the fixing rod is not shown. The drill has a rod 1 and a drill bit 2, from which are formed grooves 4 starting in the form of a helix at the right ~ of its main cutting edges 3. On the drill bit 2, a tooth first cut 5 is formed, which protrudes from the main cutting edges, which extend in approximately horizontal direction, and comprises two first cutting edges 6. The main cutting edges 3 enclose an angle ag less than 1800. There It is advantageous to provide for a deviation of the main cutting edge from the horizontal at an angle ss of 60 + 10. The height of the first cutting tooth is calculated so that it exceeds by approximately 1 to 1.5 mm the outer corners 7 of the main cutting edges 3. In this regard, a value of 1.15 mm is considered to be optimal.

The first cutting edges 6 form with the main cutting edges 3 an angle Crde 1160 + 20. This angle, in connection with the height of the first cutting tooth 5, also determines the basic width thereof. In correspondence with this angle, the first cutting edges 6 enclose an angle of about 600, as can be seen from FIG. 2. The wick 2 comprises, on the other hand, secondary cutting edges 8, which s '- extend down from the corners 7o
The main cutting edges are stripped of an angle of about 200, and the secondary cutting edges 8 have a clearance of about 60. As can be seen from FIGS. 2 and 3, the cutting edges 3, 8 and the first cutting tooth 5 are sharpened in common cutting edges on an insertion plate 9, preferably of hard metal, which, in known manner, is inserted and fixed by strong brazing in the drill bit 2.

 As shown in Figure 3, the first cutting tooth 5 is formed so as to have a pyramidal shape.

 Figures 4, 5 and 6 show an embodiment according to the invention of the helical forest, where the elements which are the same as in Figures 1 to 3 are assigned the same reference numerals. Similarly, the drangles designations indicated in Figures 1 to 3 are also valid for the embodiment according to Figures 4 to 6. The first cut tooth 5 differs here from those of Figures 1 to 3 in that, in accordance with l invention, its front surface 10 and its rear surface it extend in a plane parallel to the longitudinal axis of the forest, that is to say in extension of the planar front face 12 and the planar rear face 13 of the plate 9o this results at the front end of the first cutting tooth 5, a transverse cutting edge 14, instead of a point.

The front surface 10 and the rear surface 11 each have a triangular shape, so that the transverse cutting edge 14 connects the front points of the triangular shaped surfaces.

 The transverse cutting edge 14 may advantageously have, with one end at the other, a convex or slightly convex shape, which makes it possible to obtain improved centering. This transverse cutting edge 14 extends obliquely with respect to the surfaces 10, 11; a parallelism # of this cutting edge is then chosen particularly with respect to the lateral edges 16 of the plate 9, the appearance of which results from the stripping of the arduous vertical section 8.

It is advantageous for the lateral surfaces 17 D 18 of the tooth 5 to lie in planes passing through the transverse cutting edge 14, so that in total this results in an oblique position of the first cutting tooth 5. In the example shown this oblique position is chosen so that a cutting action is obtained during a right rotation. There is also the possibility of providing another shape of the two lateral surfaces 17, 18 relative to the transverse cutting edge 14
On its lower lateral edges: eures 19; the insert plate 9 is advantageously chamfered, which makes it possible to obtain an improved unwinding of the strong soldering when it is welded in the wick.

Thrush to the embodiment according to the invention of the twist drill which is shown in Figures 4 to 6, the first cut tooth has a uniform thickness from its base to the transverse cutting edge 14, which allows, due to a thickness relatively large material, to obtain better thermal conductivity and better thermal capacity. This is an important condition for the increased creep resistance, which can be obtained in this way, of the first cut tooth 5. Furthermore, this results in an advantage in simplified manufacture.
Another advantageous embodiment of the drill according to the invention is shown in FIGS. 7 and 8, where the same elements as in the previously described figures are given the same reference numbers. The difference with respect to the embodiment according to FIGS. 5 and 6 is that here, the transverse cutting edge 14 ends each time in front of the front face 10 and of the rear face 11 of the first cutting tooth 5 .The length of the transverse cutting edge 14 can then advantageously correspond approximately to the half-thickness of the plate 9; the ends of the cutting edge 14 are, in this arrangement, connected to the adjacent front 10 and rear 11 faces by inclined surfaces 21 of triangular shape, which can be sharpened into cutting edges.

 Loarêtg before - seen each time in the direction of rotation - on the inclined surfaces 21, acts there as a cutting edge 22, resulting from a draft. On the other hand, it is provided, according to the invention, that the heights h of the two inclined surfaces 21 of triangular shape 90n of the same size, which gives a symmetrical arrangement.

This embodiment according to the invention allows that, when the drill in accordance with the invention is put in place, an automatic centering thereof is obtained, thus preventing the forest from decentering, in particular in the case of surfaces. hard and smooth. With this embodiment, the first cutting tooth is formed on a plate 9 made of hard metal.

 The helical forest according to the invention is distinguished by an advantageous possibility of use for very different soft or fibrous materials as well as hard, such as for example: wood, plastic and / or stone9 as well as concrete; and this without, - when we change material or that we pass from one of these materials to another, we need another drilling tool or another machine, in particular a special machine like, for example, an impact drill. In addition, it is possible to execute holes in these very different materials with very high precision.

Claims (10)

 # EVENDICATION-S  1 helical forest comprising a fixing rod and, provided on the drill bit, main cutting edges between which is constituted a first cutting tooth, which protrudes from the main cutting edges and has two first cutting edges, while the edges main cutting of the wick encloses an angle less than 1800; characterized forest. in that the first cutting tooth (5) protrudes from the main cutting edges (relative to their outer corners (7), from 1 to 1.5 mm, and the front face (10) and the rear face ( 11) of the first cut tooth (5) extend in a plane parallel to the longitu dinal axis of the forest and have a triangular shape and their points are connected by a transverse cutting edge (14).  2- Forest according to claim 1, characterized in that the transverse cutting edge (14) ends each time at a distance from the face. front (10) and rear face (11) in front of these.  3- drill according to claim 2, characterized in that the length of the transverse cutting edge (.14) - roughly corresponds to the half thickness of the plate (9).  4- Forest according to one or the other of claims 2 and 3, characterized in that the ends of the transverse cutting edge (14) are connected to the adjacent faces, front (10) and rear (11), by inclined surfaces (21) of triangular shape, and the edge (22) of the inclined surfaces which is situated in the front in the direction of rotation is constituted by cutting edge.  5- Forest according to claim 4, characterized in that the heights (h) of the two inclined surfaces (21) of triangular shape are of the same magnitude.  6- Forest according to any one of claims 1 to 5, characterized in that the main cutting edges (3) make each time with the first cutting edges (6) an angle ts of about 1160.  7- Forest according to any one of claims 1 to 6, characterized in that the main cutting edges (3, 8) and the first cutting tooth (5) are formed on a plate or hard metal (9).  8- A drill according to any one of claims 1 to 7, characterized in that the transverse cutting edge (14) extends obliquely relative to the front face (10) and to the rear face (11), preferably parallel to the lateral edges (16) of the plate (9).  9- Forest according to claim 8, characterized in that the lateral surfaces (17, 18) of the first cutting tooth (5) lie in planes passing through the transverse cutting edge (14).  10- Forest according to alune or otter of claims 8 and 9, characterized in that the transverse cutting edge (14) is formed so as to have a curved shape.